Study on whole-life cycle automotive manufacturing industry CO2 emission accounting method and Application in Chongqing

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1 International Congress on Environmental Modelling and Software Brigham Young University BYU ScholarsArchive 5th International Congress on Environmental Modelling and Software - Ottawa, Ontario, Canada - July 2010 Jul 1st, 12:00 AM Study on whole-life cycle automotive manufacturing industry CO2 emission accounting method and Application in Chongqing Xianchun Tan Zekun Mu Sheng Wang Hongxing Zhuang Longxin Cheng See next page for additional authors Follow this and additional works at: Tan, Xianchun; Mu, Zekun; Wang, Sheng; Zhuang, Hongxing; Cheng, Longxin; Wang, Yanyan; and Gu, Baihe, "Study on whole-life cycle automotive manufacturing industry CO2 emission accounting method and Application in Chongqing" (2010). International Congress on Environmental Modelling and Software This Event is brought to you for free and open access by the Civil and Environmental Engineering at BYU ScholarsArchive. It has been accepted for inclusion in International Congress on Environmental Modelling and Software by an authorized administrator of BYU ScholarsArchive. For more information, please contact scholarsarchive@byu.edu, ellen_amatangelo@byu.edu.

2 Presenter/Author Information Xianchun Tan, Zekun Mu, Sheng Wang, Hongxing Zhuang, Longxin Cheng, Yanyan Wang, and Baihe Gu This event is available at BYU ScholarsArchive:

3 Study on whole-life cycle automotive manufacturing industry CO2 emission accounting method and Application in Chongqing Xianchun TAN 1, Zekun MU 1, Sheng WANG 2, Hongxing ZHUANG 3, Longxin CHENG 1,Yanyan WANG 1, Baihe GU 1 1 Institute of Policy and Management, Chinese Academy of Sciences, Beijing , China 2 Chongqing Academy of Social Sciences, Chongqing , China 3 School of Management, Shandong University, Jinan , China Abstract Low carbon economy has become a worldwide trend, many countries are seeking low carbon means to achieve environmentally- friendly economy growth. However, various Greenhouse gases species in different industries, as well as various detection technology development levels in different countries lead to different carbon emissions accounting results eventually. So the accurate micro-level accounting on carbon dioxide emission is difficult to achieve while in the mean time, it is the basis for subsequent scenario analysis,which plays a crucial role in carbon pricing and carbon credits market promotion. That s why the regional carbon dioxide emission accounting is a hot issue in low-carbon economy. Nowadays, automotive manufacturing industry has become a big fuel consumer in China and an important source of air pollution. So an accounting method focused on carbon dioxide emission in Chinese automotive industry is essential and practical significant. This paper proposed a whole-life cycle carbon emissions methodology to account carbon dioxide emission in Chinese automotive manufacturing industry, which is based on GREET and MOBILE model. And then the feasibility is verified through application in the automotive industry in Chongqing, China. Keywords automotive manufacturing industry, carbon dioxide emissions accounting, GREET model, MOBILE model, whole-life cycle 1 INTRODUCTION Developing low carbon economy has become a worldwide trend, many countries are seeking the low carbon way to build environmental friendly society as well as achieve economy growth (Zhang et al., 2009). Yiming Wei said 63.09% to 72.96% of carbon emission comes from electric power, industry (not including cement) and traffic & transportation (Wei et al., 2008). Nowadays automotive manufacturing industry, which belongs to traffic & transportation, has turned to be a large fuel consumer and an important source of air pollution. So how to calculate its carbon emission correctly and effectively has become a research focus. What s more, the study on accounting GHGs emissions in automotive manufacturing industry has practical significance for China, which is a super country in manufacture industry. Recently, researches on automotive carbon emission calculation mostly focus on GHGs emissions of automotive operation process in transportation department, such as retained automotives in given regions of certain years of which the most popular ones are GREET model and MOBILE model and so on( Wang, 2002). GREET model assesses the energy utilization and emission influence during Emial: tanxianchun@yahoo.com.cn

4 whole-life cycle of alternative fuels and advanced vehicle technologies. In terms of energy utilization, GREET model consists of three different levels: overall energy, fossil energy and petroleum based energy. While for emission influence, GREET model concludes three main GHGs (CO 2 CH 4 N 2 O) and five standard emissions (VOC CO NOx PM10 Sox)(ANL; Huang, 2003). MOBILE model series are a kind of macro-level mathematics model to calculate vehicle emission factors with consideration of influence comes from elements such as vehicle s age distribution, mileage, emission factor of new vehicles, degradation rate, speed, inspection / maintenance system, environmental conditions, road conditions, operation conditions of vehicles and fuel features and so on(huang, 2003) These two models are both widely used in macro-level vehicle emission calculation. GREET model calculates the emission in whole-life cycle of vehicles, from raw materials producing to automotive manufacturing and finally to fuel consumption of automotive operation such series of carbon emissions from cradle to tomb. This carbon emission calculation method needs a systematical assessment of vehicles whole-life cycle, to assure reflection of the actual carbon emission of automotive industry. While, in fact, various development levels of automotive manufacturing industry in different areas and different difficulty levels when accessing data of raw materials melting & producing process and automotive manufacturing process, make it difficult to applied. In other aspect, most of the discussions focused on calculation of vehicles operation GHGs emissions of transportation department in national and regional level. However, calculation from the view of regional level automotive manufacturing industry is rarely discussed. To sum up, in terms of Chinese automotive manufacturing industry, how to build an accurate carbon emission assessment method is an urgent problem needs to be solved. So, this paper proposes a whole-life cycle model to calculate carbon emissions of regional automotive manufacturing industry. This model calculates regional automotive manufacturing industry GHGs emissions from whole-life cycle view: from raw material melting and producing to automotive manufacturing and finally to automotive operation and recycle. The research analyzes the fundamental factors of GHGs emission from the perspective of automobile manufacturers who are the origin of emissions, and then result of the research can provide decision support for government to set GHGs emission targets and make relevant policies. 2 Problem Description How to calculate carbon emission of automotive manufacturing industry in regional level. This paper proposed a whole-life cycle model of calculating carbon emissions of regional automotive manufacturing industry on the basis of GREET and MOBILE model. This model calculates automotive manufacturing industry carbon emission of whole life cycle from raw material melting & producing to automotive manufacturing and finally to automotive operation and recycle from the perspective of automobile manufacturers. 3 Methodology & Model 3.1 Regional Automotive Manufacturing Industry Whole-life Cycle Carbon Emission Calculation Technology Roadmap Regional automotive manufacturing carbon emission calculation of whole-life cycle from raw material melting and producing to automotive manufacturing and finally to automotive operation and recycle

5 process from the perspective of automobile manufacturers. These three processes take material structure, product structure and fuel structure of substance flow as main body of calculation, and then calculate GHGs emission with those emission factors as shown in Fig.1. Fig.1 Regional Automotive Manufacturing Industry Whole-life Cycle Carbon Emission Calculation Model technology roadmap 3.2 Automotive operation process carbon emission calculation model The principle of the three part of the Regional Automotive Manufacturing Industry Whole-life Cycle Carbon Emission Calculation Model are the same, they only varies in concrete structure, statistics and emission factors. Here we only talked about the principle of automotive operation process carbon emission calculation model in detail Overall description of automotive operation process carbon emission calculation model Fig.2 Automotive operation process carbon emission calculation model As shown in Fig. 2, there are two steps in automotive operation process carbon emission calculation: Step 1:Calculation of CO 2 emission factors CO 2 emission factors are calculated by use of THC and CO emission factors and fuel consumption referring principles of MOBILE model. Equation of calculating CO 2 emission factors :(Li, 2003) m CO2 [( C fuel fthc ) 0.87 fco 0.42] (1) f THC :THC (total hydrocarbon) emission factors(g/km); f CO :CO (carbon monoxide) emission factors(g/km); C fuel :fuel consumption(g/km);

6 0.87 :Carbon content of THC (total hydrocarbon); 0.42 :Carbon content of CO (carbon monoxide); :Carbon content of CO 2 (carbon dioxide); Step 2:Calculation of carbon emission of automotive operation process With CO2 emission factor, we put it into the model with other factors such as automotive types, year, product structure, average mileage per year and get carbon emission of automotive operation process. Equation of calculating CO 2 emission of automotive operation process: (Li, 2003) m p ( j j 2 )(2) EQ P M CO j :Automotive type; P j :Production(ten thousand vehicles); M j :Average mileage per year of each vehicle(ten thousand km); m CO 2 : CO 2 (carbon dioxide)emission factors; 4 Case Analysis 4.1 Statistics Source Chongqing holds a dominant position in Chinese Automotive and motorcycle manufacturing industry, of which Changan Group Co. Ltd. produced second most vehicles nationally in 2009 and Chongqing s motorcycle industry produced most motorcycles nationally all along. Automotive manufacturing industry is the primary pillar industry in Chongqing and develops very well during the Tenth five year plan from year 2000 to Automotive production developed at the average rate of 25%, and sales value developed at the average rate of 28.9% in this period. By the end of 2005, Chongqing has 24 automotive corporations including Changan, Qingling, Chongqi, Tiema and other famous corporations and groups, and possess billion RMB assets. Here we take a case study to verify the regional automotive manufacturing industry whole-life cycle carbon emission calculating model). The case is about the CO2 emission of operation process of vehicles that are manufactured by Chongqing automotive manufacturers in year Our data sources include China s automotive industry yearbook, Chongqing s governmental report and Chongqing s environment bureau etc. 4.2 Calculation Process Calculation of CO2 emission factors Step 1:CO and THC emission factors We take Chongqing s automotive emission factors measured on the spot in 2004 as shown in Table 1(Guo, 2009). Table 1 THC and CO emission factors of Chongqing in 2004 Emission MINI Saloon Light Light Medium Heavy Motorcycle

7 Factors(EF) gasoline diesel diesel diesel CO EF(g/km) THC EF(g/km) Step 2:Fuel consumption in a hundred kilometers Equation of calculating each types of vehicle s fuel consumption in a hundred kilometers (L/100 km): cfuel ( L /100km) Qj'*c (3) cfuel(l/100km):fuel consumption in a hundred kilometers (L/100 km); j :Model of each type; Qj :Production of different models in 2005; c:fuel consumption in a hundred kilometers (L/100 km); Table 2 shows the fuel consumption in a hundred kilometers of each type of automotives manufactured in Chongqing in 2005(CAIY, 2006) Table 2 Fuel consumption in a hundred kilometers of Chongqing in 2005 S Mo Fuel MI Light Light Medium Heavy aloo torcycl consumption(fc) NI gasoline diesel diesel diesel n e FC in a hundred kilometers(l/100km) 0.97 Equation of calculating each types of vehicle s fuel consumption(g/km): Cfuel [ cfuel( L /100km) * ]/100 (4) Cfuel:Each types of vehicle s fuel consumption(g/km); cfuel(l/100km):each types of vehicle s fuel consumption in a hundred kilometers(l/100km); ρ:fuel density (g/l); STEP 3:Calculation of CO 2 Emission Factors Input fuel consumption, CO Emission Factors, THC Emission Factors each types of vehicle s into Equation 1 and output CO 2 Emission Factors of each types of vehicle manufactured in Chongqing Calculation of CO 2 Emissions of Automotive Operation Process STEP 1: Product Structure of Chongqing s automotive manufacturing industry in 2005 Data comes from Chinese automotive industry yearbook and Chongqing s governmental report (CAIY, 2006). STEP 2:Average mileage per year of Chongqing s vehicle in 2005 Data comes from Chongqing Transportation Bureau(Yang, 2009) STEP 3:Calculation of CO 2 Emissions of Automotive Operation Process Input CO 2 emission factors, production, average mileage per year into Equation 2 and output CO 2 emissions of each types of vehicle manufactured in Chongqing as shown in Table 3. Table 3 CO 2 Emission of each type of automotives manufactured in Chongqing in 2005 CO 2 Light Light Medium Heavy Emission MINI Saloon Motorcycle gasoline diesel diesel diesel (E) CO

8 (10,000 ton) We can get operation process carbon dioxide emissions of Chongqing s automotive and motorcycle industry of 2005 from totaling the above CO 2 Emission of each type of automotives as 1,848,200 tons. Table 4 shows the CO 2 Emission per vehicle of each type of automotives manufactured in Chongqing in 2005: Table 4 CO 2 Emission per vehicle of each type of automotives manufactured in Chongqing in 2005 CO 2 Emission MI Sal Light Light Medium Heavy Motorcy per vehicle (EPV) NI oon gasoline diesel diesel diesel cle CO 2 EPV(ton) Results Discussion The above case showed there are three main emitters during the operation process of automotives manufactured by Chongqing s automotive and motorcycle industry in 2005: Mini cars, motorcycles and saloons which occupied respectively 36.3%, 18.8% and 15.0% of the total emission. While if we look at CO 2 emission per vehicle, we can see that light diesel and heavy diesel vehicles emit much more CO 2 than the other. According to the national average, material producing process and automotive manufacturing process takes only 10 percent of the CO 2 emission amount during the whole life cycle. Chongqing s automotive and motorcycle industry is advanced compared with other regions in China, the CO 2 emission of the former two processes can be estimated 8 percent. According to the above calculation, the CO 2 emission of operation process is 1,848,200 tons, so that the whole-life cycle CO 2 emission of Chongqing s automotive and motorcycle industry is 1,996,100 tons. 5 Summary There is great significance to make clear of the whole-life cycle CO 2 emission of automotive industry. Starting from the view of manufactures, regional automotive industry whole-life cycle GHGs emissions reflect the present situation of GHGs emissions more correctly, thus measure the contributions the regional automotive manufacturing industry made to reducing GHGs emissions globally. It also benefits the government of making GHGs emissions reducing policies and targets to build environmental friendly society as well as achieve economy growth.

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